论文 先后在《fuel》、《Energy Fuels》《中国科学B辑 化学》、《石油学报》等国内重要刊物发表学术论文180余篇。
近几年发表文章:
(1)Haihua Pei, Guicai Zhang*, Jijiang Ge, Potential of alkaline flooding to enhance heavy oil recovery through water-in-oil emulsification, Fuel, 104:284-293,2013
(2)Haihua Pei, Guicai Zhang*, Jijiang Ge, Study on the variation of dynamic interfacial tension in the process of alkaline flooding for heavy oil, Fuel,104: 372-378,2013
(3)Jijiang Ge, Anzhou Feng, Guicai Zhang∗, Study of the Factors Influencing Alkaline Flooding in Heavy-Oil Reservoirs, Energy Fuels, 26(5):2875-2882, 2012
(4)Haihua Pei, Guicai Zhang∗, Jijiang Ge, Comparative Effectiveness of Alkaline Flooding and Alkaline-surfactant Flooding for Improved Heavy-oil Recovery, Energy Fuels, 26(5):29112919,2012
(5)Na Li, Guicai Zhang∗, Jijiang Ge, Adsorption behavior of betaine-type surfactnat on quartz sand, Energy Fuels, 25(10):4430-4437, 2011
(6)Haihua Pei, Guicai Zhang∗, Jijiang Ge, Analysis of Microscopic Displacement Mechanisms of Alkaline Flooding for Enhanced Heavy Oil Recovery, Energy Fuels, 25 (10):4423-4429, 2011
(7)Baodong Ding, Guicai Zhang∗, Jijiang Ge, Research on mechanisms of alkaline flooding for heavy oil, Energy Fuels, 24(12):6346–6352, 2010
(8)J.J.Ge, G.C.Zhang∗, P.Jiang, Study on Influencing Factors of Chemical Flooding for Heavy Oil, Journal of Dispersion Science and Technology, 33(2):278-286,2012
(9)Jianqiang Zhang, Guicai Zhang*, Jijiang Ge, Laboratory Studies of Depressurization with a High Concentration of Surfactant in Low-permeability Reservoirs, Journal of Dispersion Science and Technology, 33(11):1589-1595, 2012
(10)Na Li, Guicai Zhang∗, Jijiang Ge, Ultra-low interfacial tension between heavy oil and betaine-type amphoteric surfactant, Journal of Dispersion Science and Technololgy, 33(2): 258-264, 2012
(11)Guicai Zhang∗, Xiaoling Liu, Jijiang Ge, Laboratory study on low gas/liquid ratio foam flooding for Zhuangxi heavy oil, Journal of Dispersion Science and Technololgy, 32(11):1566-1573, 2011
(12)Jiaxin Zeng, Jijiang Ge, Guicai Zhang∗. Synthesis and Evaluation of Homogeneous Sodium Hexadecyl Polyoxypropylene Ether Sulfates, Journal of Dispersion Science and Technology, 31(3):307-313, 2010
(13)Mingguang Tang, Guicai Zhang∗, Jijiang Ge, Investigation into the mechanisms of heavy oil recovery by novel alkaline flooding, Colloids and Surfaces A: Physicochemical and Engineering Aspects, 421: 91-100, 2013
(14)Jijiang Ge, Haihua Pei, Guicai Zhang∗, Investigation into the Functions of Alkali and Surfactant in Chemical Flooding for Enhanced Heavy-Oil Recovery, Advanced Materials Research, 524:1816-1820, 2012
(15)Haihua Pei, Guicai Zhang∗, Jijiang Ge, Effect of oil viscosity, permeability and residual oil saturation on performance of alkaline flooding in recovery of heavy oil, Energy Sources, Part A: Recovery, Utilization, and Environmental Effects, 34 (8): 702-710, 2012
(16)T. Chen, G. Zhang∗, J. Ge, Dynamic Interfacial Tension Between Gudao Heavy Oil and Petroleum Sulfonate/HPAM Complex Systems, Petroleum Science and Technology, 30(14):1417-1423, 2012
(17)T. Chen, G. Zhang∗, J. Ge, Hydroxysulfobetaine/Hydrolyzed Polyacrylamide Complex Systems for Gudao Heavy Oil Recovery: A Dynamic Interfacial Tension Study, Petroleum Science and Technology, 30(14):1433-1440, 2012
(18)H. H. PEI, G. C. ZHANG∗, J. J. GE, Laboratory Investigation of Enhanced Heavy Oil Recovery by Foam Flooding with Low Gas-Liquid Ratio, Petroleum Science and Technology, 29(11):1176–1186, 2011
(19)Jing Wang, Jijiang Ge∗, Guicai Zhang. Low gas-liquid ratio foam flooding for conventional heavy oil, Petroleum Science, 8(3):335-344, 2011